JP3776742B2 - Intermediate transfer recording medium and image forming method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an intermediate transfer recording medium provided with a transfer portion comprising at least a receiving layer so as to be peelable on a base film, and an image forming method using the intermediate transfer recording medium.
[0002]
[Prior art]
Conventionally, a thermal transfer method has been widely used as a simple printing method. In the thermal transfer method, a thermal transfer sheet provided with a color material layer on one surface of a base sheet and a thermal transfer image receiving sheet provided with an image receiving layer as necessary are superposed, and the thermal transfer sheet is heated by a heating means such as a thermal head. In this method, an image is formed on a thermal transfer image receiving sheet by heating the back surface of the image to an image and selectively transferring the color material contained in the color material layer.
[0003]
Thermal transfer methods are classified into a melt transfer method and a sublimation transfer method. The melt transfer method uses a thermal transfer sheet in which a heat melt ink layer in which a color material such as a pigment is dispersed in a binder such as a heat meltable wax or resin is supported on a base sheet such as a PET film, and heats a thermal head or the like. In this image forming method, energy is applied to the means in accordance with image information, and a color material is transferred together with a binder onto a thermal transfer image receiving sheet such as paper or a plastic sheet. An image obtained by the melt transfer method has a high density and excellent sharpness, and is suitable for recording binary images such as characters.
[0004]
On the other hand, the sublimation transfer method uses a thermal transfer sheet in which a dye layer in which a dye that transfers heat by sublimation is dissolved or dispersed in a resin binder is supported on a base sheet such as a PET film, and is used as a heating means such as a thermal head. In this image forming method, energy is applied according to image information, and only a dye is transferred onto a thermal transfer image receiving sheet in which a dye receiving layer is provided on a base sheet such as paper or plastic as required. In the sublimation transfer method, the amount of dye transfer can be controlled in accordance with the amount of energy applied, so that it is possible to form a gradation image in which the image density is controlled for each dot of the thermal head. Further, since the color material to be used is a dye, the formed image is transparent, and the reproducibility of intermediate colors when dyes of different colors are superimposed is excellent. Therefore, when using thermal transfer sheets of different colors such as yellow, magenta, cyan, black, etc., and transferring each color dye on the thermal transfer image receiving sheet, high-quality photographic tone full-color images with excellent reproducibility of intermediate colors can be obtained. Formation is possible.
[0005]
Specific uses of the thermal transfer image receiving sheet by such a thermal transfer method are various. Typical examples include printing proofs, image output, CAD / CAM design and design output, various medical analytical instruments such as CT scans and endoscopic cameras, measuring instrument output applications and instant As an alternative to photos, output of ID cards, ID cards, credit cards, other face photos on cards, etc., as well as composite photos and amusement photos at amusement facilities such as amusement parks, game centers, museums, and aquariums Etc. With the diversification of applications as described above, there is an increasing demand for forming a thermal transfer image on an arbitrary object, and as one of the countermeasures, an intermediate transfer recording medium in which a receiving layer is detachably provided on a substrate is used. Using a thermal transfer sheet having a dye layer or a heat-meltable ink layer as the receiving layer, a colorant such as a dye or pigment is transferred to form an image, and then the intermediate transfer recording medium is heated to form a receiving layer. There has been proposed a method of transferring the image onto the transfer medium. (Japanese Patent Laid-Open No. 62-238791 etc.)
[0006]
In addition, the use of the above intermediate transfer recording medium can transfer the receiving layer to the transfer target, so that the color material is difficult to move and a high-quality image cannot be directly formed. It is preferably used for an object to be transferred which is easily fused with the material layer. For this reason, the intermediate transfer recording medium is preferably used for creating an identification card such as a passport or a printed matter such as a credit card / ID card.
[0007]
[Problems to be solved by the invention]
However, when transferring the receiving layer to the transfer medium using the intermediate transfer recording medium as described above, there are not so many problems when transferring in a simple shape with a solid shape such as a square or a round shape. However, if there is a hollow part in the transfer part or the outer edge is complicated, the edge of the receiving layer transferred to the transfer target is not sharp and the part that should not be transferred is transferred. There is a problem that the transferability of the receiving layer is unstable because the portion to be transferred is not transferred.
In particular, if the portion of the receiving layer that should not be transferred is, for example, an entry field such as an address or name, or a seal of an entry or issuer, the receiving layer is transferred to that part even a little. If this is the case, the written content and seal will be unclear and this will cause a serious problem that it cannot be read.
[0008]
Against the above unstable transferability of the receiving layer, it is possible to transfer the receiving layer once in a simple shape such as a square or a circle, and then add a dedicated layer that can be used for writing or stamping and providing it by a method such as printing. Can be mentioned. However, in this case, it takes time and labor to add a dedicated layer, and there is a problem that the manufacturing cost becomes very high.
Accordingly, the present invention solves the above-described problems, and uses an intermediate transfer recording medium provided with a transfer portion comprising at least a receiving layer so as to be peelable on a base film, and a thermal transfer image is transferred to the transfer portion. When forming and re-transferring the transfer part to the transfer object, the part that is not partially transferred to the transfer object can be formed accurately and stably, and the manufacturing cost can be increased to obtain the final print product. It is an object to provide a non-intermediate transfer recording medium and an image forming method using the same.
[0009]
[Means for Solving the Problems]
In order to achieve the above-mentioned object, in the present invention, a part of a transfer object can be peeled off on a base film, When forming an image using an intermediate transfer recording medium provided with a transfer portion comprising a release layer and a receiving layer, a masking layer is partially provided on one side of the substrate film, A release layer is provided on the entire surface of the material film, and a receiving layer is provided on the release layer. In the intermediate transfer recording medium provided with The masking layer absorbs or blocks heat, and the transfer portion is When re-transferring to the transfer target, The portion where the masking layer is provided in the lower layer of the transfer portion forms a region that is not transferred to the transfer target and is not retransferred to the transfer target. The configuration. It is preferable to have a detection mark that is synchronized with the part where the masking layer is partially formed, and a thermal transfer image is formed at the specified position on the intermediate transfer recording medium (excluding the area where the receiving layer is not re-transferred). In addition, when re-transferring the receiving layer on which the thermal transfer image is formed to the transfer target, the portion to which the receiving layer is transferred and the portion to which the transfer is not transferred can be formed accurately and with high positional accuracy. .
[0010]
In the present invention, on both sides of the transfer object, it can be peeled off on the base film, Transfer area consisting of release layer and receptor layer When forming an image using an intermediate transfer recording medium provided with an image recording medium, at least a single-sided unit in screen units delimited by detection marks to form a region where the receiving layer is not re-transferred on at least a part of one side of the transfer object An area that does not retransfer to the transfer target is provided in a part of That is, a masking layer was partially provided on the base film, a release layer was provided on the entire surface of the masking layer and the base film, and a receiving layer was further provided on the release layer. In the configuration, the portion where the masking layer is formed is a region where retransfer is not performed on the transfer target, and the masking layer absorbs or blocks heat. The configuration. As a result, the area where the receptive layer is not re-transferred and the area where the thermal transfer image is formed on the re-transfer area can be easily separated by using a single intermediate transfer recording medium. Can be formed. The image forming method of the present invention is characterized in that, using any one of the above-described intermediate transfer recording media, a region where the receiving layer is not retransferred partially is formed on the transfer target.
[0011]
That is, the image forming method of the present invention forms a region where the receiving layer is not retransferred on a part of the transfer target, so that it can be peeled off on the base film. When forming an image using an intermediate transfer recording medium provided with a transfer portion comprising a release layer and a receiving layer, a masking layer is partially provided on one side of the substrate film, A release layer is provided on the entire surface of the material film, and a receiving layer is provided on the release layer. In the intermediate transfer recording medium provided with The masking layer absorbs or blocks heat, and the transfer portion is When re-transferring to the transfer target, The portion where the masking layer is provided in the lower layer of the transfer portion forms a region that is not retransferred to the transfer target that is not transferred to the transfer target. The portion of the receiving layer that is not to be transferred can be easily and reliably formed on the transfer medium by the function of absorbing or blocking heat during transfer with the intermediate transfer recording medium.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a schematic cross-sectional view showing an embodiment which is an intermediate transfer recording medium 1 of the present invention. A masking layer 4 is partially provided on one surface of a substrate film 2, and A release layer 5 is provided on the entire surface and the base film 2, and a receiving layer 3 is provided on the release layer 5. That is, the embodiment of the intermediate transfer recording medium 1 shown in FIG. 1 is partially transferred to the transfer body when retransferred to the transfer body to the lower layer of the transfer section composed of the release layer 5 and the receiving layer 3. A masking layer 4 for forming a portion not to be formed is formed. That is, the masking layer 4 is in close contact with the base film 2 and is not transferred to the transfer body during retransfer to the transfer target.
[0013]
FIG. 2 shows the intermediate transfer recording medium 1 of the present invention. A reference example 1 is a schematic cross-sectional view showing an embodiment, in which a release layer 5 is provided on one entire surface of a base film 2, a receiving layer 3 is provided on the release layer 5, and partially on the receiving layer 3. Further, a masking layer 4 is provided. That is, the embodiment of the intermediate transfer recording medium 1 shown in FIG. 2 is partially transferred to the transfer body when retransferred to the transfer body onto the upper layer portion of the transfer section composed of the release layer 5 and the receiving layer 3. A masking layer 4 for forming a portion not to be formed is formed. In this case, since the masking layer 4 does not adhere to the transfer target, the portion of the masking layer 4 is not transferred to the transfer target during retransfer. 3 shows an intermediate transfer recording medium 1 of the present invention. A reference example FIG. 3A is a schematic diagram illustrating another embodiment, FIG. 3A is a schematic plan view of an intermediate transfer recording medium, and FIG. 3B is a schematic cross-sectional view taken along line AA ′ of FIG. . In the intermediate transfer recording medium 1 of the embodiment shown in FIG. 3, the masking layer 4 as a non-retransferred region of the receiving layer is a hollow portion in the receiving layer transfer portion. In this example, two portions per screen are provided. The hollow portion is the masking layer 4. Usually, the detection mark 6 synchronized with the part where the masking layer 4 is partially formed is formed at one place per screen. A receiving layer 3 is provided on one entire surface of the base film 2, and the illustrated detection mark 6 is formed on the receiving layer 3, that is, on the uppermost layer of the intermediate transfer recording medium 1.
[0014]
FIG. 4 shows the intermediate transfer recording medium 1 of the present invention. A reference example FIG. 4A is a schematic view showing another embodiment, FIG. 4A is a schematic plan view of an intermediate transfer recording medium, and FIG. 4B is a schematic cross-sectional view taken along line BB ′ of FIG. . The intermediate transfer recording medium 1 shown in FIG. 4 forms an image by retransferring the receiving layer on both sides of the transfer target. The intermediate transfer recording medium 1 is provided with a release layer 5 and a receiving layer 3 on one surface of a base film 2, and a transfer layer for the front surface of a transfer target in units of screens delimited by detection marks 6. A and the transfer layer B for the back surface of the transfer object are repeatedly formed as ABABABA. Nothing is formed on the receiving layer 3 in the transfer layer A for the front surface. On the other hand, in the transfer layer B for the back surface, a masking layer 4 is partially formed on the receiving layer 3 as a region where the receiving layer is not re-transferred to the transfer object.
[0015]
The masking layer 4 which is a region where the receptive layer is not re-transferred has a square hollow shape in the receptive layer transfer portion, and is spaced by one screen with the transfer layer A for the front surface in between. , Repeatedly formed. The detection mark 6 is provided on the receiving layer 3 of the intermediate transfer recording medium 1. By using the intermediate transfer recording medium of this example, it is possible to easily form the thermal transfer image on both sides of the transfer body by providing an area where the receptive layer is not retransferred at a part of the back side of the transfer body. . The position of each transfer layer on the front surface and the back surface is detected by the detection mark 6, and a thermal transfer image can be formed at an accurate position on the transfer target.
As described above, as shown in the drawing, the masking layer is formed at least in the upper layer portion or the lower layer portion of the transfer portion composed of the receiving layer.
[0016]
(Base film)
As the base film 2 used in the intermediate transfer recording medium, the same base film as that used in the conventional intermediate transfer recording medium can be used as it is, and it is not particularly limited. Specific examples of preferred substrate films include thin paper such as glassine paper, condenser paper or paraffin paper, or heat resistance such as polyethylene terephthalate, polyethylene naphthalate, polybutylene terephthalate, polyphenylene sulfide, polyether ketone or polyether sulfone. And stretched or unstretched films of plastics such as polyester, polypropylene, polycarbonate, cellulose acetate, polyethylene derivatives, polyvinyl chloride, polyvinylidene chloride, polystyrene, polyamide, polyimide, polymethylpentene, or ionomer. Moreover, the composite film which laminated | stacked 2 or more types of these materials can also be used. Although the thickness of a base film can be suitably selected according to material so that the intensity | strength, heat resistance, etc. may become appropriate, the thing about 1-100 micrometers is normally used normally.
[0017]
(Receptive layer)
The receiving layer is a main part of the transfer portion constituting the intermediate transfer recording medium. On this receiving layer, an image is formed by thermal transfer from a thermal transfer sheet having a color material layer by thermal transfer. Then, the transfer portion of the intermediate transfer recording medium on which the image is formed is transferred to the transfer target, and as a result, a printed matter is formed.
For this reason, as a material for forming the receiving layer, a conventionally known resin material that can easily receive a heat transferable color material such as a sublimation dye or a heat-meltable ink can be used. For example, polyolefin resin such as polypropylene, halogenated resin such as polyvinyl chloride or polyvinylidene chloride, polyvinyl acetate, vinyl chloride-vinyl acetate copolymer, ethylene-vinyl acetate copolymer or polyacrylate Vinyl resins, polyester resins such as polyethylene terephthalate or polybutylene terephthalate, polystyrene resins, polyamide resins, copolymers of olefins such as ethylene or propylene and other vinyl polymers, cellulose resins such as ionomers or cellulose diastase Polycarbonate, etc., and vinyl chloride resin, acrylic-styrene resin or polyester resin is particularly preferable.
[0018]
When the receiving layer is transferred to the transfer medium via the adhesive layer, the adhesiveness of the receiving layer itself is not necessarily required. However, when the receptor layer is transferred to the transfer medium without passing through the adhesive layer, it is preferable to form the receptor layer using an adhesive resin material such as vinyl chloride-vinyl acetate copolymer.
The receiving layer is a coating for the receiving layer, which is prepared by adding one or more materials selected from the above materials and various additives as necessary, and dissolving or dispersing them in an appropriate solvent such as water or an organic solvent. A liquid can be prepared, and this can be formed by applying and drying by means of a gravure printing method, a screen printing method or a reverse coating method using a gravure plate. The thickness is 1 to 10 g / m in a dry state. ² Degree.
[0019]
(Masking layer)
The masking layer 4 used in the present invention is provided in the lower layer portion of the transfer portion of the intermediate transfer recording medium. Even if the transfer portion is to be transferred to a transfer target, the masking layer absorbs or blocks heat during transfer. The transfer portion is not transferred to the transfer object. Binder resins used in the masking layer include acrylic resins, acrylic cellulose resins, cellulose resins, polystyrene resins, polyurethane resins, polyester resins, polycarbonate resins, polyamide resins, polysulfone resins, polychlorinated resins. Vinyl resin, polyvinyl acetate resin, vinyl chloride-vinyl acetate copolymer resin, polyvinyl acetal resin, polyvinyl butyral resin, polyvinyl alcohol resin, epoxy resin, ethylene-vinyl acetate copolymer resin, polyethylene resin, polypropylene resin, etc. Of these resins, those having active hydrogen can be further used as a binder by crosslinking their isocyanate.
[0020]
Moreover, a filler can be contained in the masking layer. Examples of the filler include inorganic fillers such as silica, alumina, clay, talc, calcium carbonate, and barium sulfate, white pigments such as titanium oxide and zinc oxide, acrylic resins, epoxy resins, polyurethane resins, phenol resins, and melamine resins. , Resin particles (plastic pigment) such as benzoguanamine resin, fluororesin, silicone resin or polyethylene wax, paraffin wax, carnauba wax, microcrystalline wax, wood wax, beeswax, whale wax, ibota wax, wool wax, candelilla wax, some Various known wax particles such as modified waxes and fatty acid amides can be mentioned. When air bubbles or a foaming agent is contained in the masking layer, or a filler is contained, it is added at about 0.01 to 200% by weight with respect to the masking layer binder resin.
[0021]
In addition, a porous masking layer having a sea-island structure shown below can be provided. As a porous manufacturing method, a wet coagulation method is generally used, and two or more porous forming resin components having greatly different solubility parameters can be dissolved in a solvent and applied to a base film, and then mixed with the solvent. The solvent substitution is performed by passing the resin component through a solvent that does not dissolve the resin component. As a result, under the substituted solvent, the solubility parameter of the porous forming resin component is greatly different, so that two or more kinds of resins form a sea-island structure. Thereafter, by passing through a heat bath, the island portion of the sea-island structure is further heat-shrinked and the porosity is increased. At that time, the island portion becomes organic fine particles. Thereafter, desorption and drying are performed to obtain a porous masking layer. In the case of this porous masking layer, it is necessary to adjust the size and density of the island portion and the thickness of the non-transfer layer in order to provide a heat insulating effect.
The masking layer as described above is 0.05 to 5.0 g / m at the time of drying by known coating means such as gravure coating, gravure reverse coating, and roll coating. ² It is formed with a thickness of about.
[0022]
In the intermediate transfer recording medium of the present invention, if necessary, it is possible to prevent fusion with a heating means such as a thermal head or a heat roll on the surface opposite to the side on which the receiving layer of the base film is provided, and slidability. In order to improve this, a back layer may be provided.
[0023]
(Release layer)
In the intermediate transfer recording medium of the present invention, a release layer 5 can be provided in order to improve the releasability of the receiving layer from the substrate film upon retransfer to the transfer target.
The release layer is provided when the release property at the time of thermal transfer of the receiving layer to the transfer target is not sufficient due to the combination of the material of the base film and the receiving layer. Such a release layer can be formed by using a release agent such as waxes, silicone waxes, silicone resins, or the like, or hydrophilic resins described in JP-A-4-142898 and various curable properties. Resins and the like can be appropriately selected and used according to the characteristics of the base film and the non-transfer layer, and are not particularly limited. The release layer is formed by applying an ink prepared by dissolving or dispersing an additive necessary for the release agent as described above in an appropriate solvent, and drying it on a base film by a known means. The thickness is 0.1 to 5 g / m when dried. ² The degree is preferred.
[0024]
(Detection mark)
The shape, color, and the like of the detection mark 6 synchronized with the portion where the masking layer of the intermediate transfer recording medium is partially formed are not limited as long as it can be detected by the detector. Examples of the shape include a square shape, a round shape, a barcode, and a line shape from end to end in the width direction of the intermediate transfer recording medium. The color of the detection mark only needs to be detectable by a detector. For example, in the case of a light transmission type detector, examples include silver and black having high concealment properties, and in the case of a light reflection type detector, light reflectivity. High metallic luster color tone and the like.
Further, a mark using a hologram or a diffraction grating can be used as the detection mark. As a method for forming this hologram mark, there is a conventionally known hologram pattern forming method. For example, a fine plate is formed by embossing using an original plate provided with an uneven pattern of hologram interference fringes. As this hologram mark sensor, a so-called hologram sensor can be used, and light emitted from the light emitting element is irregularly reflected by the hologram mark to emit diffracted light. The position of the hologram mark can be detected by detecting the diffracted light with a light receiving element.
In addition, the position where the detection mark is provided is not limited to the illustrated one. For example, if the film substrate has transparency, the detection is performed on the surface of the film substrate opposite to the surface on which the receiving layer is provided. Marks can be provided. Moreover, although what was illustrated has provided the detection mark on the receiving layer, it is not limited to it, A detection mark can be provided between a film base material and a mold release layer, or it can select suitably.
[0025]
The detection mark used in the intermediate transfer recording medium of the present invention is synchronized with the portion where the masking layer is partially formed, that is, the region where the receptive layer is not retransferred, and the designated position of the region where the receptive layer is not retransferred. The distance between the detection mark (for example, the start position of the area) and the detection mark is fixed, the mark is detected, and the retransfer of the receiving layer is started at a fixed position of the transfer target, so that the retransfer of the receiving layer is performed. The area that is not to be transferred can be accurately placed at the specified position of the transfer object. Usually, the detection mark synchronized with the part in which the masking layer is partially formed is formed at one place per screen.
[0026]
(Transfer material)
Next, the transfer target will be described. The transfer portion on which the above-described thermal transfer image of the intermediate transfer recording medium is formed is transferred onto the transfer medium. However, the portion having the masking layer is not transferred to the transfer target.
The material to be transferred used in the present invention is not particularly limited. For example, natural pulp paper, coated paper, tracing paper, plastic film that is not deformed by heat during transfer, glass, metal, ceramics, wood, cloth, etc. It may be a thing.
However, if the portion of the intermediate transfer recording medium that is not transferred by using a masking layer on the transfer object is, for example, an entry field such as an address or name, or a stamp field of the writer or issuer, the transfer object Is preferably natural pulp paper having a writing ability and a printing ability.
Natural pulp paper is not particularly limited, for example, fine paper, art paper, lightweight coated paper, fine coated paper, coated paper, cast coated paper, synthetic resin or emulsion impregnated paper, synthetic rubber latex impregnated paper, synthetic resin internal additive Examples thereof include paper and thermal transfer paper.
[0027]
Regarding the shape and use of the transferred object, stock certificates, securities, certificates, passbooks, boarding tickets, car horse tickets, stamps, stamps, appreciation tickets, admission tickets, tickets, etc., cash cards, credit cards, prepaid cards, Cards such as members cards, greeting cards, postcards, business cards, driver's licenses, IC cards, optical cards, cases such as cartons, containers, bags, forms, envelopes, tags, OHP sheets, slide films, bookmarks, Calendars, posters, brochures, menus, passports, POP supplies, coasters, displays, nameplates, keyboards, cosmetics, wristwatches, lighters and other accessories, stationery, report paper and other stationery, building materials, panels, emblems, keys, cloth, clothing , Footwear, radio, TV, calculator, OA equipment, etc., various samples , Album, In addition, computer graphics output, medical image output, etc., do not ask the kind.
[0028]
(Image forming method)
Next, using the above-described intermediate transfer recording medium, a receiving layer is partially formed on the transferred body having a hollow portion on an arbitrary transferred body or having a complicated outer edge shape. The image forming method of the present invention for forming a region that is not retransferred will be described. Mentioned above, When forming an image using an intermediate transfer recording medium provided with a transfer part composed of a release layer and a receiving layer so as to be peelable on the base film, a masking layer is partially formed on one side of the base film. In the intermediate transfer recording medium in which a release layer is provided on the entire surface of the masking layer and the base film, and a receiving layer is provided on the release layer, the masking layer absorbs or blocks heat. When the transfer part is re-transferred to the transfer object, the part where the masking layer is provided in the lower part of the transfer part is a region that is not transferred to the transfer object that is not transferred to the transfer object. Is formed. That An image is formed by transferring a dye layer or a heat-meltable ink layer from a thermal transfer sheet to a receiving layer of an intermediate transfer recording medium by a heating means such as a thermal head. Next, the image-formed transfer portion of the intermediate transfer recording medium is retransferred onto the transfer medium by a heating means such as a heat roll. At the time of the retransfer, the portion provided with the masking layer of the intermediate transfer recording medium is not transferred to the transfer target, and the other retransfer and heated portions are transferred.
[0029]
In the image forming method of the present invention, one or both sides of a transfer object are used by using an intermediate transfer recording medium in which a region that is not retransferred to the transfer object is provided on at least a part of the single-sided unit on a screen divided by detection marks. A region where the receptive layer of the receiving layer is not retransferred and a region where the receptive layer on which the thermal transfer image is formed are re-transferred can be separated into a part of the image forming portion with accurate positional accuracy.
The detection mark is a distinction between the transfer layer for the front surface of the transfer object or the transfer layer for the back surface (the distinction between the front surface and the back surface is shown in FIG. It is used to detect the position of the layer), and when the image is formed on the transfer target, an area where the receiving layer is not retransferred is provided on the specified surface. The re-transfer area of the receiving layer having the thermal transfer image is accurately divided, the edge of the receiving layer transferred to the transfer object is sharp, and the portion that should not be transferred is not transferred and stable. Transferability of the receiving layer can be obtained.
In this way, the detection mark on the intermediate transfer recording medium is detected by a detector on the printer side, and in conjunction with the printer, the position of the thermal transfer image on the intermediate transfer recording medium and the retransfer of the transfer portion to the transfer object Can be aligned.
[0030]
( Reference example 1 )
First, a transparent polyethylene terephthalate having a thickness of 12 μm is used as a base film, and a release layer coating liquid shown below is applied to the surface of the base film, followed by drying. 0g / m ² The release layer was formed. Then, on the release layer, the following receiving layer coating solution was applied and dried, and when dried, the thickness was 2.0 g / m. ² A receptive layer was formed. In the text, “part” or “%” is based on weight unless otherwise specified.
(Release layer coating solution)
Acrylic resin (Mitsubishi Rayon Co., Ltd., BR-83) 88 parts
1 part of polyester resin
11 parts of polyethylene wax
50 parts of methyl ethyl ketone
50 parts of toluene
[0031]
(Coating fluid for receiving layer)
40 parts of vinyl chloride-vinyl acetate copolymer
Acrylic silicone 1.5 parts
50 parts of methyl ethyl ketone
50 parts of toluene
[0032]
Next, a masking layer ink having the following composition is formed on the above receiving layer in a pattern as shown in FIG. ² A masking layer was formed.
(Ink for masking layer)
50 parts of acrylic resin
50 parts of polyethylene wax
Methyl ethyl ketone 25 parts
25 parts of toluene
[0033]
Furthermore, the ink for detection marks having the following composition has a pattern as shown in FIG. 3 and a thickness of 1.5 g / m when dried on a gravure printing machine. ² The detection mark of Reference example 1 An intermediate transfer recording medium was prepared.
(Detection mark ink)
Carbon black 8.0 parts
Urethane resin (Nippon Polyurethane Co., Ltd., HMS-20) 5.0 parts
Methyl ethyl ketone 38.5 parts
Toluene 38.5 parts
[0034]
Obtained above Reference example 1 Use a thermal transfer printer equipped with a commercially available thermal head on the receiving layer of the intermediate transfer recording medium (on the receiving layer that does not cover the masking layer), and use a sublimation type thermal transfer sheet dedicated to the thermal transfer printer. A photographic tone image was formed. During the image formation, a detection mark on the intermediate transfer recording medium was detected on the printer side, and the image on the receiving layer was aligned. Thereafter, the above-mentioned image-formed transfer portion is permanently installed on the designated position of a white PET-G sheet (Mitsubishi Resin Co., Ltd .: PET-G, Diafix PG-W) having a thickness of 600 μm. Using a commercially available laminator, retransfer was carried out to obtain a printed product. However, the address on the transfer surface of the PET-G sheet, the handwritten entry field of the name, and the position corresponding to the seal field are pre-treated with the sign panel, and the masking layer part and the sign panel field Was aligned. When the transfer portion of the intermediate transfer recording medium was retransferred to the transfer target, a detection mark on the intermediate transfer recording medium was detected on the printer side, and alignment was performed.
[0035]
the above Reference example 1 The printed matter obtained in the above is the transfer portion of the intermediate transfer recording medium, and only the transferred portion of the masking layer is not transferred to the transfer body, and the handwritten entry column and the stamped column are omitted. A thermal transfer image was formed at a portion. The handwritten entry field was filled with a ballpoint pen, and no unclear part was produced. Furthermore, when the stamp was pressed with vermilion in the stamping column, no unclear part was produced. Further, the thermal transfer image was clear and of excellent quality.
[0036]
( Reference example 2 ) Reference example 1 Using the same base film as on the surface of the base film, Reference example 1 Apply the same release layer coating liquid used in the above, dry it, and dry it onto the substrate film at a thickness of 2.0 g / m ² The release layer was formed. Next, on the release layer, Reference example 1 The same coating solution for the receiving layer used in the above was applied, dried, and dried onto the base film at a thickness of 2.0 g / m. ² A receptive layer was formed. And on that receptive layer, Reference example 1 The same masking layer ink used in Fig. 4 has a pattern as shown in Fig. 4 and a gravure printing machine with a thickness of 2.0 g / m when dried. ² A masking layer was formed. further, Reference example 1 The same detection mark ink used in Fig. 4 has a pattern as shown in Fig. 4 and is a gravure printing machine with a thickness of 1.5 g / m when dried. ² The transfer layer A of the image forming unit for the front surface of the transfer body and the transfer layer B of the image forming unit for the back surface of the transfer body were repeatedly formed as ABABAB. The masking layer is formed only on the transfer layer B side of the image forming unit for the back surface of the transfer target. In this way Reference example 2 An intermediate transfer recording medium was prepared.
[0037]
Obtained above Reference example 2 On the transfer layer A of the image forming unit for the front surface of the intermediate transfer recording medium, Reference example 1 Using the sublimation type thermal transfer sheet dedicated to the same thermal transfer printer used in the above, a full color photographic image and a thermal transfer image of the melt transfer character image were formed with the thermal transfer printer using the thermal fusion type thermal transfer sheet. . Next, for the transfer part B transferred to the back surface of the transfer object adjacent to the transfer part A transferred to the front surface of the transfer object, the same hot-melt thermal transfer sheet as above A thermal transfer image of a melt-transfer character image was formed using the thermal transfer printer used above. However, at that time, the character image of the melt transfer was formed on the portion where the masking layer was not printed. When the image is formed, the detection mark for the front surface of the transfer medium and the detection mark for the back surface of the transfer medium included in the intermediate transfer recording medium are detected on the printer side and transferred to the transfer medium on the receiving layer. The front and back images to be transferred were aligned.
[0038]
Then Reference example 1 A commercially available laminator in which the above-mentioned image-formed transfer portion for the front surface is installed at the designated position on the front surface of the white PET-G sheet similar to the transfer material used in the above, is installed. And re-transferred to obtain a print. Next, on the back side of the white PET-G sheet image-transferred on the front side, the transfer part for the back side on which the image is formed, using a commercially available laminator with a permanent heat roll And retransferred to obtain a printed material having images on both sides. However, the address of the transfer surface, which is the back side of the PET-G sheet, and the position corresponding to the handwritten entry field of the name are pre-treated with the sign panel, the masking layer part, the sign panel field, Was aligned. When the transfer portion of the intermediate transfer recording medium is retransferred to the transfer target, the detection mark of the transfer layer for the front surface of the transfer target included in the intermediate transfer recording medium and the transfer layer for the back surface of the transfer target The detection marks were respectively detected on the printer side, and the transfer portion on which the image was formed on the intermediate transfer recording medium was re-transferred with the positions designated on the front surface and the back surface of the transfer target.
[0039]
the above Reference example 2 The printed matter obtained in step 1 is a portion on the back side of the transfer portion of the intermediate transfer recording medium, in which only the transferred portion of the masking layer is not transferred to the transfer body, and the portion where the handwritten entry column is omitted. Thus, a thermal transfer image was formed. And it was filled in with the ball-point pen in the handwritten entry column, and no unclear part was produced. Also, Reference example 2 The thermal transfer images on the front and back surfaces of the printed matter obtained in (1) were clear and of excellent quality.
[0040]
(Comparative Example 1)
Reference example 1 Using the same base film as on the surface of the base film, Reference example 1 Apply the same release layer coating liquid used in the above, dry it, and dry it onto the substrate film at a thickness of 2.0 g / m ² The release layer was formed. Next, on the release layer, Reference example 1 The same coating solution for the receiving layer used in the above was applied, dried, and dried onto the base film at a thickness of 2.0 g / m. ² The intermediate transfer recording medium of Comparative Example 1 was produced. On the receiving layer of the intermediate transfer recording medium obtained above, Reference example Using the same thermal transfer printer and thermal transfer sheet as used in Example 1, a sublimation transfer photographic image and a heat transfer image of a melt transfer character image were formed. next, Reference example 1 The same PET-G sheet used in the above and the image-formed transfer portion are overlapped, and the portion excluding the position corresponding to the address and name handwritten entry column and the stamp column is heated and pressurized. Using a relief stamp for hot stamping having the above pattern, hot pressing was performed, and the transfer portion was retransferred to the transfer medium to obtain a printed matter. When the printed matter obtained in the above Comparative Example 1 was entered with a ballpoint pen at the position of the handwritten entry field, the ink was partially repelled, resulting in an unclear portion. Furthermore, when a stamp was pressed with vermilion in the stamping column, a portion where vermilion was repelled occurred and was unclear.
[0041]
【The invention's effect】
As described above, by the image forming method of the present invention, in order to form a region where the receiving layer is not re-transferred on a part of the transfer object, it can be peeled off on the base film. When forming an image using an intermediate transfer recording medium provided with a transfer portion comprising a release layer and a receiving layer, a masking layer is partially provided on one side of the substrate film, In an intermediate transfer recording medium in which a release layer is provided on the entire surface of a material film, and a receiving layer is provided on the release layer, the masking layer absorbs or blocks heat, and the transfer portion When the image is retransferred to the transfer object, the portion where the masking layer is provided in the lower layer of the transfer part forms a region that is not transferred to the transfer object that is not transferred to the transfer object. The portion of the receiving layer that should not be transferred can be easily and reliably formed on the transfer medium by absorbing or blocking heat at the time of transfer on the intermediate transfer recording medium.
[Brief description of the drawings]
FIG. 1 is a schematic cross-sectional view showing one embodiment which is an intermediate transfer recording medium of the present invention.
FIG. 2 is an intermediate transfer recording medium of the present invention. A reference example It is a schematic sectional drawing which shows embodiment.
FIG. 3 is an intermediate transfer recording medium of the present invention. A reference example It is the schematic which shows embodiment.
FIG. 4 is an intermediate transfer recording medium of the present invention. A reference example It is the schematic which shows embodiment.
[Explanation of symbols]
1 Intermediate transfer recording medium
2 Base film
3 Receptive layer
4 Masking layer
5 Release layer
6 Detection mark
A Transfer layer for the front surface of the transfer target
B Transfer layer for the back side of the transfer target

Claims (4)

When forming an image using an intermediate transfer recording medium provided with a transfer part composed of a release layer and a receiving layer on a part of the transfer material so as to be peelable on the base film, on one side of the base film In an intermediate transfer recording medium in which a masking layer is partially provided, a release layer is provided on the entire surface of the masking layer and the base film, and a receiving layer is provided on the release layer. When the layer absorbs or blocks heat and the transfer portion is retransferred to the transfer target, the portion where the masking layer is provided below the transfer portion is not transferred to the transfer target. An intermediate transfer recording medium characterized by forming a region which is not retransferred to a body .   The intermediate transfer recording medium according to claim 1, further comprising a detection mark synchronized with a portion in which the masking layer is partially formed. When forming an image using an intermediate transfer recording medium provided with a transfer part composed of a release layer and a receiving layer on both sides of the transfer material so as to be peelable from the base film, a part of at least one side of the transfer material In order to form a region in which the receptive layer is not re-transferred, a region that is not re-transferred to the transfer object is provided in at least a part of the single-sided unit in the screen unit delimited by the detection mark , i.e., partially on the base film. A portion in which the masking layer is formed in a configuration in which a masking layer is provided, a release layer is provided on the entire surface of the masking layer and the base film, and a receiving layer is provided on the release layer. An intermediate transfer recording medium, wherein the intermediate transfer recording medium is a region that is not retransferred to a transfer medium, and the masking layer absorbs or blocks heat .   An image forming method comprising: forming a region where a receiving layer is not partially retransferred on a transfer medium using any one of the intermediate transfer recording media according to claim 1.

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